OIML R 50-3 RECOMMENDATION. Edition 2014 (E) ORGANISATION INTERNATIONALE INTERNATIONAL ORGANIZATION
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1 INTERNATIONAL RECOMMENDATION OIML R 50-3 Edition 2014 (E) Continuous totalizing automatic weighing instruments (belt weighers). Part 3: Test report format Instruments de pesage totalisateurs continus à fonctionnement automatique (peseuses sur bande). Partie 3: Format du rapport d essais OIML R 50-3 Edition 2014 (E) ORGANISATION INTERNATIONALE DE MÉTROLOGIE LÉGALE INTERNATIONAL ORGANIZATION OF LEGAL METROLOGY
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3 Contents Foreword... 4 Introduction... 5 Type evaluation report... 6 Explanatory notes... 6 Identification of the instrument... 8 General information concerning the type Information concerning the test equipment used for type evaluation Configuration for test Summary of the checklist Summary of type evaluation tests Simulation tests Warm-up time Variation of simulation speed Eccentric loading Zero-setting device Zero-setting (range) Zero-setting (semi-automatic and automatic) Influence quantities Static temperatures Temperature effect at zero flowrate Damp heat Mains voltage variation Battery voltage variation, not mains connected (DC) Disturbances AC mains voltage dips, short interruptions and reductions Bursts (fast transient tests) on mains power lines and on signal, data and control lines Surges on AC and DC mains power lines and on signal, data and control lines Electrostatic discharge Immunity to electromagnetic fields Metrological characteristics Repeatability Discrimination of the totalization indicating device Discrimination of the totalization indicating device used for zero totalization Short- and long-term stability of zero In-situ tests Maximum permissible errors on checking of zero Discrimination of the indicator used for zero-setting In-situ product tests Accuracy of control instrument Repeatability Checklist
4 Foreword The International Organization of Legal Metrology (OIML) is a worldwide, intergovernmental organization whose primary aim is to harmonize the regulations and metrological controls applied by the national metrological services, or related organizations, of its Member States. The main categories of OIML publications are: International Recommendations (OIML R), which are model regulations that establish the metrological characteristics required of certain measuring instruments and which specify methods and equipment for checking their conformity. OIML Member States shall implement these Recommendations to the greatest possible extent; International Documents (OIML D), which are informative in nature and which are intended to harmonize and improve work in the field of legal metrology; International Guides (OIML G), which are also informative in nature and which are intended to give guidelines for the application of certain requirements to legal metrology; and International Basic Publications (OIML B), which define the operating rules of the various OIML structures and systems. OIML Draft Recommendations, Documents and Guides are developed by Project Groups linked to Technical Committees or Subcommittees which comprise representatives from the Member States. Certain international and regional institutions also participate on a consultation basis. Cooperative agreements have been established between the OIML and certain institutions, such as ISO and the IEC, with the objective of avoiding contradictory requirements. Consequently, manufacturers and users of measuring instruments, test laboratories, etc. may simultaneously apply OIML publications and those of other institutions. International Recommendations, Documents, Guides and Basic Publications are published in English (E) and translated into French (F) and are subject to periodic revision. Additionally, the OIML publishes or participates in the publication of Vocabularies (OIML V) and periodically commissions legal metrology experts to write Expert Reports (OIML E). Expert Reports are intended to provide information and advice, and are written solely from the viewpoint of their author, without the involvement of a Technical Committee or Subcommittee, nor that of the CIML. Thus, they do not necessarily represent the views of the OIML. This publication - reference OIML R 50-3, Edition was developed by Project Group 7 of OIML TC 9/SC 2 Automatic weighing instruments. It was approved for final publication by the International Committee of Legal Metrology in 2014 and will be submitted to the International Conference of Legal Metrology in 2016 for formal sanction. OIML Publications may be downloaded from the OIML web site in the form of PDF files. Additional information on OIML Publications may be obtained from the Organization s headquarters: Bureau International de Métrologie Légale 11, rue Turgot Paris - France Telephone: 33 (0) Fax: 33 (0) biml@oiml.org Internet: 4
5 Introduction The Test report format, the subject of OIML R 50-3, aims at presenting, in a standardized format, the results of the various tests and examinations to which a type of a continuous totalizing automatic weighing instrument (belt weigher) shall be submitted with a view to its approval. The Test report format consists of two parts, the Checklist and the Test report. The Checklist is a summary of the examinations carried out on the instrument. It includes the conclusions of the results of the tests performed, experimental or visual checks based on the required performance criteria and associated tests in OIML R 50-1 and -2. The words or condensed sentences intend to remind the examiner of the requirements of R 50-1 and -2 without reproducing them. The Test report is a record of the results of the tests carried out on the instrument. The test report forms have been produced based on the tests detailed in the performance test procedures (OIML R 50-2). The information concerning the test equipment used for type evaluation shall cover all test equipment which has been used in determining the test results given in a report. The information may be a short list containing essential data (name, type, reference number for purpose of traceability). For example: Verification standards (accuracy or accuracy class, and no.); Simulator for testing of modules (name, type, traceability and no.); Climatic test and static temperature chamber (name, type and no.); Electrical tests, bursts (name of the instrument, type and no.); Description of the procedure of field calibration for the electromagnetic susceptibility test. All metrology services or laboratories evaluating types of continuous totalizing automatic weighing instruments according to OIML R 50-1 and -2 or to national or regional regulations based on OIML R 50-1 and -2 are strongly advised to use this Test report format, directly or after translation into a language other than English or French. Its direct use in English or in French, or in both languages, is even more strongly recommended whenever test results may be transmitted by the country performing these tests to the approving authorities of another country, under bi- or multi-lateral cooperation agreements. In the framework of the OIML Certificate System for measuring instruments, use of the Test report format is mandatory. 5
6 Type evaluation report Explanatory notes Symbols I I c I n I L T W L E E % P d d c p i MPE EUT sf Max Min U nom U max U min v min v max e.m.f I/O RF Meaning Indication of the measuring instrument Indication of the control instrument nth indication Static load Additional static load to next changeover point Totalized load (calculated for simulation tests or controlled load for product tests) Pulses transmitted L T = [ calculation for simulation] Pulses per weigh length Weigh length I T Error as percentage for simulation tests, E % = (I T) 100 / T Indication of the control instrument prior to rounding (digital indication): P = I c d c ΔL Totalization scale interval Scale interval of the control instrument Fraction of the MPE applicable to a module of the instrument which is examined separately Maximum permissible error (absolute value) Equipment under test Significant fault Maximum capacity of the instrument Minimum capacity of the instrument Nominal voltage value marked on the instrument Highest value of a voltage range marked on the instrument Lowest value of a voltage range marked on the instrument Minimum operating speed Maximum operating speed Electromotive force Input / output ports Radio frequency Note: For simulation tests, T is calculated from the simulation test equipment and is the product of the static load, L, and pulse count as indicated in the individual tests and test report sheet. For product tests, T is the indication of the control instrument prior to rounding, thus for product tests T = P. The calculation of P is only relevant to the control instrument and the subsequent determination of T for product tests. 6
7 Explanatory notes (continued) The name(s) or symbol(s) of the unit(s) used to express test results shall be specified on each form. The boxes under the headings of the report should always be filled in according to the following example: At start At end Temp.: C Rel. h.: % Date: yyyy-mm-dd Time: 16:00:05 16:30:05 hh:mm:ss where: Temp. = temperature Rel. h. = relative humidity Date in the test report refers to the date on which the test was performed. In the disturbance tests, significant faults are faults greater than the absolute value of the appropriate maximum permissible error for influence factor tests for a load equal to Σ min, for the designated class of the belt weigher. 7
8 Report page.../... Identification of the instrument Application no.: Identification no.: Type designation: Manufacturer: Software version: Report date: Documentation from the manufacturer (Record as necessary to identify the equipment under test) System or module name Drawing number or software reference Issue level Serial no. Simulator documentation System or module name Drawing number or software reference Issue level Serial no. 8
9 Report page.../... OIML R 50-3:2014 (E) Identification of the instrument (continued) Application no.: Identification no.: Type designation: Manufacturer: Software version: Report date: Simulator function (summary) (Simulator description and drawings, block diagram, etc. should be attached to the report if available) 9
10 Report page.../... Identification of the instrument (continued) Application no.: Identification no.: Type designation: Manufacturer: Software version: Report date: Description or other information pertaining to identification of the instrument: (attach photograph here if available) 10
11 Report page.../... OIML R 50-3:2014 (E) General information concerning the type Application no.: Type designation: Manufacturer: Applicant: Instrument category: Testing on: Complete instrument Module* Accuracy class: Q min = Q max = Σ min = Speed, v = m/s v min = m/s v max = m/s Max = d = W L = m U nom ** = V U min = V U max = V f = Hz Battery, U = V Zero-setting device: Non-automatic Semi-automatic Automatic Temperature range C Printer: Built-in Connected Non present but connectable No connection Instrument submitted: Load sensor: Identification no.: Manufacturer: Software version: Type: Connected equipment: Capacity: Number: Classification symbol: Interfaces (number, nature): OIML R 60 Certificate of conformity. Please tick. If Yes supply certificate number. Yes No Evaluation period: Certificate number: Date of report: Observer: * The test equipment (simulator or part of a complete instrument) connected to the module shall be defined in the test form(s) used ** The voltage U nom shall be as defined in IEC section 5 11
12 Report page.../... General information concerning the type (continued) Application no.: Type designation: Manufacturer: Applicant: Instrument category: Testing on: Complete instrument Module* Use this space to indicate additional remarks and/or information: connecting equipment, interfaces and load cells, choice of the manufacturer regarding protection against disturbances, etc. * The test equipment (simulator or part of a complete instrument) connected to the module shall be defined in the test form(s) used 12
13 Report page.../... OIML R 50-3:2014 (E) Information concerning the test equipment used for type evaluation Application no.: Report date: Type designation: Manufacturer: List all test equipment used in this report (including descriptions of the equipment used for testing) Equipment name Manufacturer Type no. Serial no. Used for (test references) 13
14 Report page.../... Configuration for test Application no.: Report date: Type designation: Manufacturer: Use this space for additional information relating to equipment configuration, interfaces, data rates, load cells, EMC protection options etc., for the instrument and/or simulator. 14
15 Report page.../... OIML R 50-3:2014 (E) Summary of the checklist For each test, the Summary of the checklist below and the Checklist in clause 3 shall be completed according to this example: Passed Failed When the instrument has passed the test: X When the instrument has failed the test: X When the test is not applicable: / / Summary of the checklist: Metrological requirements R 50-1 clause 3 Technical requirements R 50-1 clause 4 Requirement Passed Failed Remarks Additional requirements for electronic belt weighers R 50-1 clause 5 Metrological controls R 50-1 clause 6 Test procedures R 50-2 Overall result 15
16 Report page.../... Application no.: Report date: Type designation: Manufacturer: Use this page to detail remarks from the summary of the checklist 16
17 Report page.../... OIML R 50-3:2014 (E) Summary of type evaluation tests Application no.: Report date: Type designation: Manufacturer: R 50-3 Tests Report page Passed Failed Remarks 1 Simulation tests 1.1 Warm-up time 1.2 Variation of simulation speed 1.3 Eccentric loading 1.4 Zero-setting device Zero-setting (range) Zero-setting (semi-automatic and automatic) 1.5 Influence quantities Static temperatures Temperature effect at zero flowrate Damp heat Damp heat, steady state (non-condensing) Damp heat, cyclic (condensing) Mains voltage variation AC mains voltage variation DC mains voltage variation Battery voltage variation, not mains connected (DC) 1.6 Disturbances AC mains voltage dips, short interruptions and reductions Bursts (fast transient tests) on: AC and DC mains power lines signal, data and control lines Surges on: AC and DC mains power lines signal, data and control lines Electrostatic discharge Direct application 17
18 Report page.../ Indirect application (contact discharges only) Immunity to electromagnetic fields: radiated electromagnetic fields conducted electromagnetic fields 1.7 Metrological characteristics Repeatability Discrimination of the totalization indicating device Discrimination of the totalization indicating device used for zero totalization Short- and long-term stability of zero 1.8 In-situ tests Maximum permissible errors on checking of zero Discrimination of the indicator used for zerosetting 2 In-situ product tests 2.1 Accuracy of control instrument 2.2 Repeatability MPE for type evaluation MPE for initial verification and in-service inspection 18
19 Report page.../... OIML R 50-3:2014 (E) 1 Simulation tests (R 50-1, 7.3, R 50-2, 5.4) Application no.: Report date: Type designation: Observer: Simulation tests Data Derivation Ref Value Units Maximum flowrate Max at maximum speed Q max t/h Totalization scale interval d t Zero-setting scale interval Simulator resolution* d t Max load receptor capacity To obtain Q max Max kg Weigh length W L m Pulses per weigh length Nominal speed or range of speeds Other relevant data** v = v =.../... m/s m/s * Where: Simulator resolution, d, is obtained in line with R 50-2, 7.1 and/or R 50-2, Whichever means are used, they should be noted below in description of simulator. ** Insert other relevant data as necessary. Detailed formula for calculating totalized load for simulation tests: Pulses transmitted L T = = Pulses per weigh length Where L is the static load used for the simulation test DESCRIPTION OF SIMULATOR: (Shall include details of any deviations from actual instruments when installed, including the accuracy determining parameters) 19
20 Report page.../ Warm-up time (R 50-1, and R 50-2, 5.2) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Duration of disconnection before test Automatic zero-setting: Non existent Not in operation Out of working range In operation Weight table load % Max as defined in R 50-1, 3.5 Applied load Time* Pulses** Calculated totalization, T*** Indicated totalization, I Error, E %**** Min load (nominally 20 % of Max) Max capacity (Max) 0 min Min load (nominally 20 % of Max) Max capacity (Max) Min load (nominally 20 % of Max) Max capacity (Max) Min load (nominally 20 % of Max) Max capacity (Max) 30 min Passed Failed * Counted from the moment an indication first appears ** The pulses sent by the displacement transducer (or simulator) to simulate belt movement *** See the simulation page in clause 1 for the simulated totalization calculation formula **** See the explanatory notes section for the E % calculation formula Remarks: Include information that affects the test condition, as indicated in the last paragraph of R 50-2,
21 Report page.../... OIML R 50-3:2014 (E) 1.2 Variation of simulation speed (R 50-1, & R 50-2, 5.4.1) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Belt speed, v = m/s or speed range, v = / m/s Load, L Speed (m/s) Flowrate ( /h) Revolutions* or pulses** Calculated totalization, T*** Indicated totalization, I Difference I T Error, E %**** Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause 1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
22 Report page.../ Eccentric loading (R 50-1, & R 50-2, 5.4.2) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Location of test loads: Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Band 1 Band 2 Band 3 Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the Simulation page in section 1 for the simulated totalization calculation formula *** See the Explanatory notes section for the E % calculation formula Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
23 Report page.../... OIML R 50-3:2014 (E) 1.4 Zero-setting device (R 50-1, 4.5) Zero-setting (range) (R 50-1, 3.7.3, & R 50-2, 5.4.3) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Weight added Positive portion, L 1 Negative portion, L 2 Re-zero Yes/no Weight removed Re-zero Yes/no Zero-setting range L 1 + L 2 Passed Failed Where: L 1 is the maximum load that can be re-zeroed (positive portion) L 2 is the maximum load that can be removed while the instrument can still be re-zeroed (negative portion) Check: L 1 + L 2 4 % of Max Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
24 Report page.../ Zero-setting (semi-automatic and automatic) (R 50-1, & R 50-2, 5.4.4) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** L 1 L 2 L 3 L 4 Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause 1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Where: L 1 = 50 % of positive zero-setting range L 2 = 100 % of positive zero-setting range L 3 = 50 % of negative zero-setting L 4 = 100 % of negative zero-setting Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
25 Report page.../... OIML R 50-3:2014 (E) 1.5 Influence quantities (R 50-1, & R 50-2, 7) Static temperatures (R 50-1, & R 50-2, 7.2.1) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Automatic zero-setting: Non existent Not in operation Out of working range Pre-test information: Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Q intermediate Q min Test results (note that at each Q, the test is repeated) Test 1 - Static temperature 20 C At start At end Temp.: C Rel. h.: % Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula 25
26 Report page.../ Static temperatures (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Test 2 - Static temperature specified high ( C) At start At end Temp.: C Rel. h.: % Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula 26
27 Report page.../... OIML R 50-3:2014 (E) Static temperatures (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Test 3 - Static temperature specified low ( C) At start At end Temp.: C Rel. h.: % Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula 27
28 Report page.../ Static temperatures (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Test 4 - Static temperature 5 C At start At end Temp.: C Rel. h.: % Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula 28
29 Report page.../... OIML R 50-3:2014 (E) Static temperatures (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Test 5 - Static temperature 20 C At start At end Temp.: C Rel. h.: % Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Remarks: Include information that affect the test conditions, as indicated in the last paragraph of R 50-2,
30 Report page.../ Temperature effect at zero flowrate (R 50-1, & R 50-2, 7.2.2) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Automatic zero-setting: Non existent Not in operation Out of working range Temperature at start specified minimum C At start At end Rel. h.: % Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Temp. C Pulses Indicated totalization, I, at start Indicated totalization, I, at end Change in indication Report page* Date Time Start temp. End temp. Start temp. End temp. Start temp. End temp. Start temp. End temp. Start temp. End temp. Passed Failed Where: temp. = temperature The rate of temperature change between totalizations shall not exceed 5 C per hour. Remarks: * Indicate the report page of the relevant test where the temperature effect at zero flowrate and static temperature tests are conducted together. 30
31 Report page.../... OIML R 50-3:2014 (E) Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
32 Report page.../ Damp heat (R 50-1, & R 50-2, 7.2.3) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Damp heat tests are performed according to one of the options in R 50-1, The results for the option chosen are recorded in or below accordingly Damp heat, steady state (non-condensing) (R 50-1, & R 50-2, ) Automatic zero-setting: Non existent Not in operation Out of working range Pre-test information: Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Q intermediate Q min Test results (Note that at each Q, the test is repeated) Initial test at reference temperature of 20 C and relative humidity of 50 % At start At end Temp.: C Rel. h.: % Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula 32
33 Report page.../... OIML R 50-3:2014 (E) Damp heat, steady state (non-condensing) (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Test at specified high temperature ( humidity 85 % C), relative At start At end Temp.: C Rel. h.: % Date: yyyy-mm-dd Time: hh:mm:ss Barometric pressure: hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed 33
34 Report page.../... Final test at reference temperature 20 C, relative humidity 50 % At start At end Temp.: C Rel. h.: % Date: yyyy-mm-dd Time: hh:mm:ss Barometric pressure: hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
35 Report page.../... OIML R 50-3:2014 (E) Damp heat, cyclic (condensing) (R 50-1, 5.1.1, & R 50-2, ) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Automatic zero-setting: Non existent Not in operation Out of working range In operation Pre-test information: Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Q intermediate Q min Test results (Note that at each Q, the test is repeated) Temperature rise from reference at 95 % RH At start At end Temp.: C Rel. h.: % Date: yyyy-mm-dd Time: hh:mm:ss Barometric pressure: hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula 35
36 Report page.../ Damp heat, cyclic (condensing) (continued) Application no.: Resolution during test: (smaller than d) Specified high temperature at 93 % RH Type designation: Observer: At start At end Temp.: C Rel. h.: % Date: yyyy-mm-dd Time: hh:mm:ss Barometric pressure: hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause 1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
37 Report page.../... OIML R 50-3:2014 (E) Temperature drop to reference at 95 % RH At start At end Temp.: C Rel. h.: % Date: yyyy-mm-dd Time: hh:mm:ss Barometric pressure: hpa Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Q min Q intermediate Q max Q min Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
38 Report page.../ Mains voltage variation (R 50-1, & 5.5.4) AC mains voltage variation (R 50-2, 7.2.4) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Automatic zero-setting: Non existent Not in operation Out of working range In operation Marked nominal voltage, U nom = V or voltage range, U min / U max 1 = / V Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Test 1 at reference voltage 2 Q max Test 2 at reference voltage: 0.85 U nom or 0.85 U min Q max Test 3 at reference voltage: 1.10 U nom or 1.10 U max Q max Test 4 at reference voltage Q max Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause 1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Remarks: 1 If a voltage-range is marked, use the average value as nominal U nom 2 The reference voltage shall be as defined in IEC
39 Report page.../... OIML R 50-3:2014 (E) Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
40 Report page.../ DC mains voltage variation (R 50-2, 7.2.5) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Automatic zero-setting: Non existent Not in operation Out of working range In operation Marked nominal voltage, U nom = V or voltage range, U min / U max 3 = / V Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Test 1 at reference voltage 4 Q max Test 2 at minimum operating voltage Q max Test 3 at reference voltage: 1.20 U nom or 1.20 U max Q max Test 4 at reference voltage Q max Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause 1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2, If a voltage-range is marked, use the average value as nominal U nom 4 The reference voltage shall be as defined in IEC
41 Report page.../... OIML R 50-3:2014 (E) Battery voltage variation, not mains connected (DC) (R 50-1, , & R 50-2, 7.2.6) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Automatic zero-setting: Non existent Not in operation Out of working range In operation Marked nominal voltage, U nom = V or voltage range, U min / U max 5 = / V Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Q ( /h) Load, L Pulses* Calculated totalization, T** Indicated totalization, I Difference, I T E %*** Test 1 at minimum operating voltage Q max Test 2 at reference voltage, U nom 6 or U max Q max Test 3 at lower limit: minimum operating voltage Q max Test 4 at reference voltage, U nom Q max Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause 1 for the simulated totalization calculation formula *** See the explanatory notes section for the E % calculation formula Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2, If a voltage-range is marked, use the average value as nominal U nom 6 The minimum battery supply voltage is to be specified by the manufacturer of the instrument 41
42 Report page.../ Disturbances (R 50-1, & R 50-2, 7.3) AC mains voltage dips, short interruptions and reductions (R 50-1, & R 50-2, 7.3.1) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Marked nominal voltage, U nom = V or voltage range, U min / U max 7 = / V Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Disturbance Result Amplitude (% of U nom 8 ) Duration (cycles) Number of disturbances Repetition interval Pulses Indicated totalization, I No Significant fault Yes (remarks) without disturbance / / / Passed Failed Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2, If a voltage-range is marked, use the average value as nominal U nom 8 The reference voltage shall be as defined in IEC These values are for 50 Hz/60 Hz, respectively. 42
43 Report page.../... OIML R 50-3:2014 (E) Bursts (fast transient tests) on mains power lines and on signal, data and control lines (R 50-1, & R 50-2, 7.3.2) Bursts on AC and DC mains power lines Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Barometric pressure: hpa Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Kind or type of voltage supply: DC Other form Voltage Power supply lines: test voltage 2.0 kv, duration of the test: 1 min at each polarity Connection Polarity L N PE Pulses ground ground ground without disturbance Indicated totalization, I No Significant fault Yes (remarks) X pos neg without disturbance X pos neg without disturbance Where L = line, N = neutral, PE = protective earth X pos neg Passed Failed Remarks: 43
44 Report page.../... Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
45 Report page.../... OIML R 50-3:2014 (E) Bursts (fast transient tests) on mains power lines and on signal, data and control lines (R 50-1, & R 50-2, 7.3.2) Bursts on signal, data and control lines Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Barometric pressure: hpa Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max I/O signals, data and control lines: test voltage 1.0 kv, duration of the test: 1 min at each polarity Indicated Significant fault Cable/interface Polarity Pulses totalization, I No Yes (remarks) without disturbance pos neg without disturbance pos neg without disturbance pos neg without disturbance pos neg without disturbance pos neg without disturbance pos neg Explain or make a sketch indicating where the clamp is located on the cable; if necessary, use an additional page. Passed Failed Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
46 Report page.../ Surges on AC and DC mains power lines and on signal, data and control lines (R 50-1, & R 50-2, 7.3.3) Surges on AC and DC mains power lines Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Barometric pressure: hpa Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Kind or type of voltage supply: DC Other form Voltage Disturbance Result 3 positive and 3 negative surges Load, (for each of the angles 0, 90, 180 and Indicated Significant fault L 270 in case of AC supply). totalization, I Amplitude / apply on Polarity No Yes (remarks) without disturbance Line pos 1.0 kv neutral neg without disturbance Line pos 2.0 kv PE neg without disturbance Neutral pos 2.0 kv PE neg Where PE = protective earth Passed Failed Note: If significant faults are detected and acted upon, or if the EUT fails, the test point at which this occurs shall be recorded. Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
47 Report page.../... OIML R 50-3:2014 (E) Surges on AC and DC mains power lines (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Use this page for additional test set-up information. 47
48 Report page.../ Surges on signal, data and control lines Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Barometric pressure: hpa Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Signal and communication lines: test voltage 1.0 kv, 3 positive and 3 negative surges Result Cable/interface Polarity without disturbance Load Indicated totalization, I No Significant fault Yes (remarks) C/1,1 pos neg without disturbance C/1,2 pos neg without disturbance C/1,3 pos neg without disturbance C/1,4 pos neg without disturbance C/1,5 pos neg without disturbance C/1,6 pos neg Passed Failed Note 1: Explain or make a sketch indicating where the clamp is located on the cable; if necessary, add additional pages. Note 2: The cell references C/1,1 to C/1,6 should be used to cross-reference the cable or interface between Tables A and B. Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
49 Report page.../... OIML R 50-3:2014 (E) Surges on signal, data and control lines (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Use this page for additional test set-up information. 49
50 Report page.../ Electrostatic discharge (R 50-1, & R 50-2, 7.3.4) Direct application Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Barometric pressure: hpa Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Contact discharge Paint penetration Air discharge Polarity*: positive negative Test voltage (kv) Discharges Number of discharges 10 Repetition interval (s) Pulses Indicated totalization, I No Significant fault Yes (remarks) without disturbance (air discharges) Passed Failed Note: If the EUT fails, the test point at which this occurs shall be recorded. Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2, 7.1 * IEC specifies that the test shall be conducted with the most sensitive polarity. 50
51 Report page.../... OIML R 50-3:2014 (E) Electrostatic discharge test (continued) Indirect application (contact discharges only) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: yyyy-mm-dd hh:mm:ss Barometric pressure: hpa Pre-test information Flowrate ( /h) Equivalent pulses for Σ min Static load, L, for Σ min Q max Polarity*: positive negative Horizontal coupling plane Load, L Test voltage (kv) Discharges Number of discharges 10 Repetitio interval (s) Indicated totalization, I No Significant fault Yes (remarks) without disturbance Vertical coupling plane Load, L Test voltage (kv) Discharges Number of discharges 10 Repetitio interval (s) Indicated totalization, I No Significant fault Yes (remarks) without disturbance Note: If the EUT fails, the test point at which this occurs shall be recorded. Passed Failed Remarks: * IEC specifies that the test shall be conducted with the most sensitive polarity. 51
52 Report page.../... Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
53 Report page.../... OIML R 50-3:2014 (E) Electrostatic discharge test (continued) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Specification of test points of EUT (direct application), e.g. by photos or sketches a) Direct application Contact discharges: Air discharges: b) Indirect application 53
54 Report page.../ Immunity to electromagnetic fields (R 50-1, & R 50-2, 7.3.5) Immunity to radiated electromagnetic fields (R 50-1, & R 50-2, ) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Pre-test information Test severity: Frequency range: to 2000 MHz Field strength: 10 V/m Modulation: 80 % AM, 1 khz, sine wave Rate of sweep: Q max Date: Time: Barometric pressure: Flowrate ( /h) Equivalent pulses for Σ min yyyy-mm-dd hh:mm:ss hpa Static load, L, for Σ min Test facility Note: Frequency Range (MHz) Disturbance Polarization without disturbance Vertical Horizontal Vertical Horizontal Facing EUT Front Right Left Rear Front Right Left Rear Front Right Left Rear Front Right Left Pulses Indicated totalization, I Rear If EUT fails, the frequency and level at which this occurs shall be recorded. Result Significant fault Yes (remarks) No (Remarks) Passed Failed Remarks: 10 For instruments having no mains or other I/O ports available so that the conducted test according to R 50-2, cannot be applied, the lower limit of the radiation test is 26 MHz 54
55 Report page.../... OIML R 50-3:2014 (E) Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
56 Report page.../ Immunity to radiated electromagnetic fields (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Additional information regarding testing, e.g., by photos or sketches 56
57 Report page.../... OIML R 50-3:2014 (E) Immunity to electromagnetic fields (R 50-1, & R 50-2, 7.3.5) (continued) Immunity to conducted electromagnetic fields (R 50-1, & R 50-2, ) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Pre-test information Test severity: Frequency range: Mhz RF amplitude: 10 V emf Modulation: 80 % AM, 1 khz, sine wave Rate of sweep: Q max Date: Time: Barometric pressure: Flowrate ( /h) Equivalent pulses for Σ min yyyy-mm-dd hh:mm:ss hpa Static load, L, for Σ min Disturbance Result Frequency range (MHz) Cable/interface Level (V emf ) Indicated totalization, I No Significant fault Yes (remarks) without disturbance without disturbance without disturbance without disturbance without disturbance without disturbance Note: If EUT fails, the frequency and level at which this occurs must be recorded. Passed Failed Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
58 Report page.../ Immunity to conducted electromagnetic fields (continued) Application no.: Resolution during test: (smaller than d) Type designation: Observer: Additional information regarding testing, e.g., by photos or sketches 58
59 Report page.../... OIML R 50-3:2014 (E) 1.7 Metrological characteristics (R 50-1, & R 50-2, 8) Repeatability (R 50-1, & R 50-2, 8.1) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Pre-test information Equivalent pulses for Σ min at L Static load, L 20 % Max = 50 % Max = 75 % Max = Max = Load, L Pulses* T** Indicated total Run 1, I 1 Run 2, I 2 Difference I 1 I 2 Passed Failed * The pulses sent by the displacement transducer (or simulator) to simulate belt movement ** See the simulation page in clause 1 for the simulated totalization calculation formula Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
60 Report page.../ Discrimination of the totalization indicating device (R 50-1, & R 50-2, 8.2) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Pre-test information Equivalent pulses for Σ min at L Static load, L 20 % Max = 50 % Max = 75 % Max = Max = First weigh table load, L 1 Pulses Additional load L 2 Pulses Calculated totalized load Indicated totalized load T 1 T 2 I 1 I 2 Difference, I 2 I 1 20 % Max = 50 % Max = 75 % Max = Max = Passed Failed Where: L 1 = First weigh table load L 2 = load 0.07 % for class 0.2 load % for class 0.5 load 0.35 % for class1 load 0.7 % for class 2 Pulses = the number of pulses sent by the displacement transducer (or simulator) to simulate belt movement T Pulses transmitted L = Pulses per weighlength Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
61 Report page.../... OIML R 50-3:2014 (E) Discrimination of the totalization indicating device used for zero totalization (R 50-1, & R 50-2, 8.3) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Test duration = 3 minutes, equivalent pulses = Test Initial total, T 1 Pulses Final total, T 2 Pulses Difference, T 1 T 2 Weight added Weight removed Passed Failed Where: + indicates presence of test weight on the load receptor 0.02 % of Max for class % of Max for class 0.5 Test weight = 0.1% of Max for class1 0.2 % of Max for class 2 Remarks: 61
62 Report page.../... Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
63 Report page.../... OIML R 50-3:2014 (E) Short- and long-term stability of zero (R 50-1, & R 50-2, 8.4) Application no.: At start At end Type designation: Temp.: C Observer: Rel. h.: % Resolution during test: (smaller than d) Date: Time: Barometric pressure: yyyy-mm-dd hh:mm:ss hpa Elapsed time in min. ZTID indication Load totalized in 3 min. Elapsed time in min ZTID indication Load totalized in 3 min. Where ZTID = Zero totalization indicating device Requirement (R 50-1, ) Difference between the highest and lowest indicated values obtained in the set of the six readings from 0 minutes to 15 minutes = Difference between the highest and lowest indicated values obtained in the set of the six readings from 195 minutes to 210 minutes = Requirement (R 50-1, ) Difference between the highest and lowest indicated values obtained in the set of the twelve readings from 0 minute to 210 minutes = class 0.2: % class 0.2: % class 0.5: % class 0.5: % class 1: % class 1: % class 2: % class 2: % Passed Failed Remarks: Include information that affect the test condition, as indicated in the last paragraph of R 50-2,
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